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Numerical analysis of effective elastic properties of geomaterials containing voids using 3D random fields and finite elements |
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| Authors: | Jumpol Paiboon D.V. Griffiths Jinsong Huang Gordon A. Fenton |
| Affiliation: | 1. Department of Civil and Environmental Engineering, Colorado School of Mines, Golden, CO 80401, USA;2. Australian Research Council Centre of Excellence for Geotechnical Science and Engineering, University of Newcastle, Callaghan, NSW 2308, Australia;3. Department of Engineering Mathematics, Dalhousie University, Nova Scotia B3J 2X4, Canada |
| Abstract: | The purpose of the study is to investigate the influence of porosity and void size on effective elastic geotechnical engineering properties with a 3D model of random fields and finite element. The random field theory is used to generate models of geomaterials containing spatially random voids with controlled porosity and void size. A “tied freedom” analysis is developed to evaluate the effective Young’s modulus and Poisson’s ratio in an ideal block material of finite elements. To deliver a mean and standard deviation of the elastic parameters, this approach uses Monte-Carlo simulations and finite elements, where each simulation leads to an effective value of the property under investigation. The results are extended to investigate an influence of representative volume element (RVE). A comparison of the effective elastic stiffness of 2D and 3D models is also discussed. |
| Keywords: | Random finite element method (RFEM) Representative volume element (RVE) Effective elastic properties Homogenization |
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